Influence of the pre-dispersion of montmorillonite on organic modification and the adsorption of perchlorate and methyl red anions

Influence of the pre-dispersion of montmorillonite on organic modification and the adsorption of perchlorate and methyl red anions

In this study, hexadecyl pyridinium chloride (HDPy-Cl) was applied to modify powdery and dispersed montmorillonite (pMt and dMt, respectively). Then, perchlorate (ClO4−) and methyl red (MR) were selected as representatives of hazardous inorganic and organic pollutants, respectively, to investigate t...

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Bibliographic Details
Published in:Applied clay science Vol. 154; pp. 1 - 9
Main Authors: Luo, Wuhui, Sasaki, Keiko, Hirajima, Tsuyoshi
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2018
Subjects:
Adsorption
Configuration
Dispersion
Modification
Montmorillonite
Modification
Montmorillonite
Configuration
Adsorption
Dispersion
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Summary:In this study, hexadecyl pyridinium chloride (HDPy-Cl) was applied to modify powdery and dispersed montmorillonite (pMt and dMt, respectively). Then, perchlorate (ClO4−) and methyl red (MR) were selected as representatives of hazardous inorganic and organic pollutants, respectively, to investigate the influence of the dispersion of Mt on their adsorption using the obtained composites (pMt/HDPy and dMt/HDPy). Based on the X-ray diffraction patterns and water chemistry results, pre-dispersion of Mt resulted in a lower crystallinity of the obtained composite with slightly higher contents of HDPy+ (0.93mmol/g-Mt) and HDPy-Cl (1.41mmol/g-Mt) compared to the original powdery Mt (0.85 and 1.36mmol/g-Mt). Moreover, as supported by thermogravimetry results, the amount of HDPy distributed on the external surface of dMt/HDPy was greater than that on pMt/HDPy, which was opposite of the HDPy content in the interlayer space. The adsorption kinetic of ClO4− and MR on two composites was studied and the results were fitted by three models, where the intra-particle diffusion model fitted the experimental data best. Similar adsorption capacities were obtained, and the slight differences in the adsorption kinetics as supported by the intra-particle diffusion model were ascribed to the differences in the HDPy contents and configuration. The pre-dispersion of Mt is not necessary when a modified composite is planned for use as an adsorbent of pollutants, but it would be beneficial to the synthesis of clay/polymer nanocomposites. •HDPy uptake was faster on pre-dispersed Mt than on powdery Mt.•Pre-dispersion slightly increased the HDPy content and decreased the crystallinity.•Powdery Mt resulted in more HDPy in the interlayer space and a higher crystallinity.•D-HDPy/Mt and P-HDPy/Mt showed similar adsorption performances for ClO4− and MR.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2017.12.032